def splitFeatures(f1, f2): ''' :param f1: feature que define o corte :param f2: trimmed feature :return:geometry ''' g1 = QgsGeometry(f1.geometry()) g2 = QgsGeometry(f2.geometry()) gg = g2.splitGeometry(qgsGeometryToPolyline(g1), False) gg = gg[1][0] return g2 if contains(g1.boundingBox(), gg) else gg
def redrawAreas(self, mousePos=None): self.deleteLabels() if self.capturing and len(self.capturedPoints) > 0: for i in range(len(self.selectedFeatures)): geometry = QgsGeometry(self.selectedFeatures[i].geometry()) movingPoints = list(self.capturedPoints) if mousePos != None: movingPoints.append( self.toLayerCoordinates(self.layer, mousePos)) result, newGeometries, topoTestPoints = geometry.splitGeometry( movingPoints, self.proj.topologicalEditing()) self.addLabel(geometry) if newGeometries != None and len(newGeometries) > 0: for i in range(len(newGeometries)): self.addLabel(newGeometries[i])
def processAlgorithm(self, progress): layerA = dataobjects.getObjectFromUri(self.getParameterValue(self.INPUT_A)) layerB = dataobjects.getObjectFromUri(self.getParameterValue(self.INPUT_B)) fieldList = layerA.pendingFields() writer = self.getOutputFromName(self.OUTPUT).getVectorWriter(fieldList, QGis.WKBLineString, layerA.dataProvider().crs()) spatialIndex = vector.spatialindex(layerB) inFeatA = QgsFeature() inFeatB = QgsFeature() outFeat = QgsFeature() inGeom = QgsGeometry() splitGeom = QgsGeometry() features = vector.features(layerA) current = 0 total = 100.0 / float(len(features)) for inFeatA in features: inGeom = inFeatA.geometry() attrsA = inFeatA.attributes() outFeat.setAttributes(attrsA) inLines = [inGeom] lines = spatialIndex.intersects(inGeom.boundingBox()) if len(lines) > 0: # hasIntersections splittingLines = [] for i in lines: request = QgsFeatureRequest().setFilterFid(i) inFeatB = layerB.getFeatures(request).next() splitGeom = QgsGeometry(inFeatB.geometry()) if inGeom.intersects(splitGeom): splittingLines.append(splitGeom) if len(splittingLines) > 0: for splitGeom in splittingLines: splitterPList = vector.extractPoints(splitGeom) outLines = [] while len(inLines) > 0: inGeom = inLines.pop() inPoints = vector.extractPoints(inGeom) if inGeom.intersects(splitGeom): try: result, newGeometries, topoTestPoints = inGeom.splitGeometry(splitterPList, False) except: ProcessingLog.addToLog(ProcessingLog.LOG_WARNING, self.tr('Geometry exception while splitting')) result = 1 # splitGeometry: If there are several intersections # between geometry and splitLine, only the first one is considered. if result == 0: # split occured if inPoints == vector.extractPoints(inGeom): # bug in splitGeometry: sometimes it returns 0 but # the geometry is unchanged outLines.append(inGeom) else: inLines.append(inGeom) for aNewGeom in newGeometries: inLines.append(aNewGeom) else: outLines.append(inGeom) else: outLines.append(inGeom) inLines = outLines for aLine in inLines: outFeat.setGeometry(aLine) writer.addFeature(outFeat) current += 1 progress.setPercentage(int(current * total)) del writer
def processAlgorithm(self, progress): layerA = dataobjects.getObjectFromUri( self.getParameterValue(self.INPUT_A)) layerB = dataobjects.getObjectFromUri( self.getParameterValue(self.INPUT_B)) sameLayer = self.getParameterValue( self.INPUT_A) == self.getParameterValue(self.INPUT_B) fieldList = layerA.pendingFields() writer = self.getOutputFromName(self.OUTPUT).getVectorWriter( fieldList, QGis.WKBLineString, layerA.dataProvider().crs()) spatialIndex = vector.spatialindex(layerB) outFeat = QgsFeature() features = vector.features(layerA) total = 100.0 / float(len(features)) for current, inFeatA in enumerate(features): inGeom = QgsGeometry(inFeatA.geometry()) attrsA = inFeatA.attributes() outFeat.setAttributes(attrsA) inLines = [inGeom] lines = spatialIndex.intersects(inGeom.boundingBox()) if len(lines) > 0: # hasIntersections splittingLines = [] for i in lines: request = QgsFeatureRequest().setFilterFid(i) inFeatB = layerB.getFeatures(request).next() # check if trying to self-intersect if sameLayer: if inFeatA.id() == inFeatB.id(): continue splitGeom = QgsGeometry(inFeatB.geometry()) if inGeom.intersects(splitGeom): splittingLines.append(splitGeom) if len(splittingLines) > 0: for splitGeom in splittingLines: splitterPList = vector.extractPoints(splitGeom) outLines = [] while len(inLines) > 0: inGeom = inLines.pop() inPoints = vector.extractPoints(inGeom) if inGeom.intersects(splitGeom): try: result, newGeometries, topoTestPoints = inGeom.splitGeometry( splitterPList, False) except: ProcessingLog.addToLog( ProcessingLog.LOG_WARNING, self. tr('Geometry exception while splitting' )) result = 1 # splitGeometry: If there are several intersections # between geometry and splitLine, only the first one is considered. if result == 0: # split occurred if inPoints == vector.extractPoints( inGeom): # bug in splitGeometry: sometimes it returns 0 but # the geometry is unchanged outLines.append(inGeom) else: inLines.append(inGeom) for aNewGeom in newGeometries: inLines.append(aNewGeom) else: outLines.append(inGeom) else: outLines.append(inGeom) inLines = outLines for aLine in inLines: if len(aLine.asPolyline()) > 2 or \ (len(aLine.asPolyline()) == 2 and aLine.asPolyline()[0] != aLine.asPolyline()[1]): # sometimes splitting results in lines of zero length outFeat.setGeometry(aLine) writer.addFeature(outFeat) progress.setPercentage(int(current * total)) del writer